Title :
Implementation a hybrid MAS and SPA algorithm for broadband electromagnetic induction problems
Author :
Shubitidze, F. ; Neill, K.O. ; Shamatava, I. ; Sun, K. ; Paulsen, K.D.
Author_Institution :
Thayer Sch. of Eng., Dartmouth Coll., Hanover, NH, USA
Abstract :
The computational complexity/efficiency of the method of auxiliary sources (MAS) is significantly reduced at high frequency (high induction number >40) for electromagnetic induction problems. At the same time the small penetration-depth approximation (SPA) is very accurate at high frequency/induction numbers. A hybrid algorithm, combining the MAS with SPA, is efficiently implemented. Numerical experiments are performed for a highly conducting and permeable sphere and a prolate spheroid under a time varying primary magnetic field. Numerical experiments demonstrate that the proposed method is able to produce very accurate results with low computational requirements.
Keywords :
computational complexity; conducting bodies; electromagnetic induction; magnetic fields; magnetic permeability; matrix algebra; HF EM induction; broadband EM induction problems; broadband electromagnetic induction problems; computational complexity; computational efficiency; conducting sphere; electromagnetic induction sensors; high frequency EM induction; hybrid MAS-SPA algorithm; matrix; method of auxiliary sources; permeable metallic scattering object; permeable sphere; prolate spheroid; time varying primary magnetic field; Computational complexity; Computational efficiency; Conductivity; Electromagnetic induction; Electromagnetic scattering; Equations; Frequency; Magnetic fields; Robust stability; Sun;
Conference_Titel :
Direct and Inverse Problems of Electromagnetic and Acoustic Wave Theory, 2002. DIPED - 2002. Proceedings of the 7th International Seminar/Workshop on
Print_ISBN :
966-02-2224-6
DOI :
10.1109/DIPED.2002.1049169
